英语翻译A sensing torch for on-line monitoring ofthe gas tungsten arc welding process ofsteel pipesAbstractNon-intrusive and real-time monitoring techniques are increasingly requiredby manufacturing industry in order to detect flaws in arc
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英语翻译A sensing torch for on-line monitoring ofthe gas tungsten arc welding process ofsteel pipesAbstractNon-intrusive and real-time monitoring techniques are increasingly requiredby manufacturing industry in order to detect flaws in arc
英语翻译
A sensing torch for on-line monitoring of
the gas tungsten arc welding process of
steel pipes
Abstract
Non-intrusive and real-time monitoring techniques are increasingly required
by manufacturing industry in order to detect flaws in arc welding processes.
In this work the development of an optical inspection system,for monitoring
the manual gas tungsten arc welding (GTAW) process of steel pipes,is
described.The arc plasma visible emission produced during the process was
acquired and spectroscopically analysed.Measuring the intensities of
selected argon emission lines allowed real time calculation and recording of
the axial electron temperature of the plasma.Experimental results showed
that the temperature signal varies greatly in the case of instabilities of the
weld pool that cause weld defects.A suitable algorithm,based on a
statistical analysis of the signal,was developed in order to real time flag
defective joints.It is shown that several weld defects such as porosity,
dropout,lack of fusion,solid inclusions and craters were successfully
detected in a production environment.The performances of the optical
sensor were compared with the results of state-of-the-art post-weld controls
such as x-rays and penetrating dyes,showing good agreement and thus
demonstrating the validity of this quality monitoring system.
Keywords:arc welding,plasma diagnostics,spectroscopy,optical sensor,
algorithm
不要机翻,好的我可以再加分
英语翻译A sensing torch for on-line monitoring ofthe gas tungsten arc welding process ofsteel pipesAbstractNon-intrusive and real-time monitoring techniques are increasingly requiredby manufacturing industry in order to detect flaws in arc
阿遥感火炬在线监测
气体钨弧焊过程
钢管
摘要
非侵入性和实时监测技术的日益需要
按个别制造行业,以发现漏洞弧焊过程.
在这方面的工作制定一个光学检测系统,用于监测
该手册气体钨弧焊(氩弧焊)进程的钢管,是
描述.可见的电弧等离子体发射过程中产生的过程
收购和spectroscopically分析.强度测量
选定的氩气排放线路允许实时计算和记录
电子温度轴向的血浆.实验结果表明
温度信号差别很大的情况下不稳定的
熔池造成焊接缺陷.适当的算法的基础上,
统计分析的信号,是为了实时国旗
有缺陷的接头.结果表明,一些焊接缺陷,如孔隙度,
辍学,缺乏融合,固体夹杂物和环形山成功
发现在生产环境中.性能的光学
传感器进行比较的结果,美国最先进的焊后控制
如X射线和穿透染料,显示出良好的协议,从而
证明有效的质量监控体系.
关键词:电弧焊接,等离子体诊断,光谱,光学传感器,
用于在线检测钢管气体保护钨极电弧焊过程的传感先锋
摘要
为了检测弧焊过程中的漏洞,非侵入性和实时监测逐渐地被制造业需要。本篇文章描述了用于监测手工气体保护钨极电弧焊(GTAW)焊钢管过程的光学检测系统的发展。电弧等离子可见放射物在已经在获取进程中产生并被光谱分析法分析。测量选定氩气射线强度时,允许实时计算及记录等离子体的轴向电子温度。试验结果显示,在熔池不稳定的情况下造成焊接缺...
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用于在线检测钢管气体保护钨极电弧焊过程的传感先锋
摘要
为了检测弧焊过程中的漏洞,非侵入性和实时监测逐渐地被制造业需要。本篇文章描述了用于监测手工气体保护钨极电弧焊(GTAW)焊钢管过程的光学检测系统的发展。电弧等离子可见放射物在已经在获取进程中产生并被光谱分析法分析。测量选定氩气射线强度时,允许实时计算及记录等离子体的轴向电子温度。试验结果显示,在熔池不稳定的情况下造成焊接缺陷,从而引起温度信号差别很大。对实时标记缺陷接头方面来说,一个基于对信号进行了数据分析的恰当的算法是成熟的。显示证明,在一个生产环境中,一些焊接缺陷比如气孔,脱落,未熔合,夹渣,凹陷都被成功检测出来。光学传感器的性能和最新科技水平的焊后处理控制机构相比,例如X射线和渗透检查,显示了良好的一致性,因此证明了这种质量控制系统是有效的.
关键词:电弧焊,等离子诊断,光谱学,光学传感器,算法
注:标题上那个torch我琢磨了半天,因torch也可以表示焊枪,即传感焊枪,因为我不是这个专业的,也不知道有没有这个东西,但是就整篇内容看大概是讲这种新传感技术的,总之,可以斟酌下,谢谢
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